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view ezBAMQC/src/htslib/test/test-vcf-api.c @ 4:50a9d8992e65
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author | cshl-bsr |
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date | Tue, 29 Mar 2016 15:33:36 -0400 |
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/* test/test-vcf-api.c -- VCF test harness. Copyright (C) 2013, 2014 Genome Research Ltd. Author: Petr Danecek <pd3@sanger.ac.uk> Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include <stdio.h> #include <htslib/hts.h> #include <htslib/vcf.h> #include <htslib/kstring.h> #include <htslib/kseq.h> void write_bcf(char *fname) { // Init htsFile *fp = hts_open(fname,"wb"); bcf_hdr_t *hdr = bcf_hdr_init("w"); bcf1_t *rec = bcf_init1(); // Create VCF header kstring_t str = {0,0,0}; bcf_hdr_append(hdr, "##fileDate=20090805"); bcf_hdr_append(hdr, "##FORMAT=<ID=UF,Number=1,Type=Integer,Description=\"Unused FORMAT\">"); bcf_hdr_append(hdr, "##INFO=<ID=UI,Number=1,Type=Integer,Description=\"Unused INFO\">"); bcf_hdr_append(hdr, "##FILTER=<ID=Flt,Description=\"Unused FILTER\">"); bcf_hdr_append(hdr, "##unused=<XX=AA,Description=\"Unused generic\">"); bcf_hdr_append(hdr, "##unused=unformatted text 1"); bcf_hdr_append(hdr, "##unused=unformatted text 2"); bcf_hdr_append(hdr, "##contig=<ID=Unused,length=62435964>"); bcf_hdr_append(hdr, "##source=myImputationProgramV3.1"); bcf_hdr_append(hdr, "##reference=file:///seq/references/1000GenomesPilot-NCBI36.fasta"); bcf_hdr_append(hdr, "##contig=<ID=20,length=62435964,assembly=B36,md5=f126cdf8a6e0c7f379d618ff66beb2da,species=\"Homo sapiens\",taxonomy=x>"); bcf_hdr_append(hdr, "##phasing=partial"); bcf_hdr_append(hdr, "##INFO=<ID=NS,Number=1,Type=Integer,Description=\"Number of Samples With Data\">"); bcf_hdr_append(hdr, "##INFO=<ID=DP,Number=1,Type=Integer,Description=\"Total Depth\">"); bcf_hdr_append(hdr, "##INFO=<ID=AF,Number=A,Type=Float,Description=\"Allele Frequency\">"); bcf_hdr_append(hdr, "##INFO=<ID=AA,Number=1,Type=String,Description=\"Ancestral Allele\">"); bcf_hdr_append(hdr, "##INFO=<ID=DB,Number=0,Type=Flag,Description=\"dbSNP membership, build 129\">"); bcf_hdr_append(hdr, "##INFO=<ID=H2,Number=0,Type=Flag,Description=\"HapMap2 membership\">"); bcf_hdr_append(hdr, "##FILTER=<ID=q10,Description=\"Quality below 10\">"); bcf_hdr_append(hdr, "##FILTER=<ID=s50,Description=\"Less than 50% of samples have data\">"); bcf_hdr_append(hdr, "##FORMAT=<ID=GT,Number=1,Type=String,Description=\"Genotype\">"); bcf_hdr_append(hdr, "##FORMAT=<ID=GQ,Number=1,Type=Integer,Description=\"Genotype Quality\">"); bcf_hdr_append(hdr, "##FORMAT=<ID=DP,Number=1,Type=Integer,Description=\"Read Depth\">"); bcf_hdr_append(hdr, "##FORMAT=<ID=HQ,Number=2,Type=Integer,Description=\"Haplotype Quality\">"); bcf_hdr_append(hdr, "##FORMAT=<ID=TS,Number=1,Type=String,Description=\"Test String\">"); bcf_hdr_add_sample(hdr, "NA00001"); bcf_hdr_add_sample(hdr, "NA00002"); bcf_hdr_add_sample(hdr, "NA00003"); bcf_hdr_add_sample(hdr, NULL); // to update internal structures bcf_hdr_write(fp, hdr); // Add a record // 20 14370 rs6054257 G A 29 PASS NS=3;DP=14;AF=0.5;DB;H2 GT:GQ:DP:HQ 0|0:48:1:51,51 1|0:48:8:51,51 1/1:43:5:.,. // .. CHROM rec->rid = bcf_hdr_name2id(hdr, "20"); // .. POS rec->pos = 14369; // .. ID bcf_update_id(hdr, rec, "rs6054257"); // .. REF and ALT bcf_update_alleles_str(hdr, rec, "G,A"); // .. QUAL rec->qual = 29; // .. FILTER int32_t tmpi = bcf_hdr_id2int(hdr, BCF_DT_ID, "PASS"); bcf_update_filter(hdr, rec, &tmpi, 1); // .. INFO tmpi = 3; bcf_update_info_int32(hdr, rec, "NS", &tmpi, 1); tmpi = 14; bcf_update_info_int32(hdr, rec, "DP", &tmpi, 1); float tmpf = 0.5; bcf_update_info_float(hdr, rec, "AF", &tmpf, 1); bcf_update_info_flag(hdr, rec, "DB", NULL, 1); bcf_update_info_flag(hdr, rec, "H2", NULL, 1); // .. FORMAT int32_t *tmpia = (int*)malloc(bcf_hdr_nsamples(hdr)*2*sizeof(int)); tmpia[0] = bcf_gt_phased(0); tmpia[1] = bcf_gt_phased(0); tmpia[2] = bcf_gt_phased(1); tmpia[3] = bcf_gt_phased(0); tmpia[4] = bcf_gt_unphased(1); tmpia[5] = bcf_gt_unphased(1); bcf_update_genotypes(hdr, rec, tmpia, bcf_hdr_nsamples(hdr)*2); tmpia[0] = 48; tmpia[1] = 48; tmpia[2] = 43; bcf_update_format_int32(hdr, rec, "GQ", tmpia, bcf_hdr_nsamples(hdr)); tmpia[0] = 1; tmpia[1] = 8; tmpia[2] = 5; bcf_update_format_int32(hdr, rec, "DP", tmpia, bcf_hdr_nsamples(hdr)); tmpia[0] = 51; tmpia[1] = 51; tmpia[2] = 51; tmpia[3] = 51; tmpia[4] = bcf_int32_missing; tmpia[5] = bcf_int32_missing; bcf_update_format_int32(hdr, rec, "HQ", tmpia, bcf_hdr_nsamples(hdr)*2); char *tmp_str[] = {"String1","SomeOtherString2","YetAnotherString3"}; bcf_update_format_string(hdr, rec, "TS", (const char**)tmp_str, 3); bcf_write1(fp, hdr, rec); // 20 1110696 . A G,T 67 . NS=2;DP=10;AF=0.333,.;AA=T;DB GT 2 1 ./. bcf_clear1(rec); rec->rid = bcf_hdr_name2id(hdr, "20"); rec->pos = 1110695; bcf_update_alleles_str(hdr, rec, "A,G,T"); rec->qual = 67; tmpi = 2; bcf_update_info_int32(hdr, rec, "NS", &tmpi, 1); tmpi = 10; bcf_update_info_int32(hdr, rec, "DP", &tmpi, 1); float *tmpfa = (float*)malloc(2*sizeof(float)); tmpfa[0] = 0.333; bcf_float_set_missing(tmpfa[1]); bcf_update_info_float(hdr, rec, "AF", tmpfa, 2); bcf_update_info_string(hdr, rec, "AA", "T"); bcf_update_info_flag(hdr, rec, "DB", NULL, 1); tmpia[0] = bcf_gt_phased(2); tmpia[1] = bcf_int32_vector_end; tmpia[2] = bcf_gt_phased(1); tmpia[3] = bcf_int32_vector_end; tmpia[4] = bcf_gt_missing; tmpia[5] = bcf_gt_missing; bcf_update_genotypes(hdr, rec, tmpia, bcf_hdr_nsamples(hdr)*2); bcf_write1(fp, hdr, rec); free(tmpia); free(tmpfa); // Clean free(str.s); bcf_destroy1(rec); bcf_hdr_destroy(hdr); int ret; if ( (ret=hts_close(fp)) ) { fprintf(stderr,"hts_close(%s): non-zero status %d\n",fname,ret); exit(ret); } } void bcf_to_vcf(char *fname) { htsFile *fp = hts_open(fname,"rb"); bcf_hdr_t *hdr = bcf_hdr_read(fp); bcf1_t *rec = bcf_init1(); char *gz_fname = (char*) malloc(strlen(fname)+4); snprintf(gz_fname,strlen(fname)+4,"%s.gz",fname); htsFile *out = hts_open(gz_fname,"wg"); bcf_hdr_t *hdr_out = bcf_hdr_dup(hdr); bcf_hdr_remove(hdr_out,BCF_HL_STR,"unused"); bcf_hdr_remove(hdr_out,BCF_HL_GEN,"unused"); bcf_hdr_remove(hdr_out,BCF_HL_FLT,"Flt"); bcf_hdr_remove(hdr_out,BCF_HL_INFO,"UI"); bcf_hdr_remove(hdr_out,BCF_HL_FMT,"UF"); bcf_hdr_remove(hdr_out,BCF_HL_CTG,"Unused"); bcf_hdr_write(out, hdr_out); while ( bcf_read1(fp, hdr, rec)>=0 ) { bcf_write1(out, hdr_out, rec); // Test problems caused by bcf1_sync: the data block // may be realloced, also the unpacked structures must // get updated. bcf_unpack(rec, BCF_UN_STR); bcf_update_id(hdr, rec, 0); bcf_update_format_int32(hdr, rec, "GQ", NULL, 0); bcf1_t *dup = bcf_dup(rec); // force bcf1_sync call bcf_write1(out, hdr_out, dup); bcf_destroy1(dup); bcf_update_alleles_str(hdr_out, rec, "G,A"); int32_t tmpi = 99; bcf_update_info_int32(hdr_out, rec, "DP", &tmpi, 1); int32_t tmpia[] = {9,9,9}; bcf_update_format_int32(hdr_out, rec, "DP", tmpia, 3); bcf_write1(out, hdr_out, rec); } bcf_destroy1(rec); bcf_hdr_destroy(hdr); bcf_hdr_destroy(hdr_out); int ret; if ( (ret=hts_close(fp)) ) { fprintf(stderr,"hts_close(%s): non-zero status %d\n",fname,ret); exit(ret); } if ( (ret=hts_close(out)) ) { fprintf(stderr,"hts_close(%s): non-zero status %d\n",gz_fname,ret); exit(ret); } // read gzip, write stdout htsFile *gz_in = hts_open(gz_fname, "r"); if ( !gz_in ) { fprintf(stderr,"Could not read: %s\n", gz_fname); exit(1); } kstring_t line = {0,0,0}; while ( hts_getline(gz_in, KS_SEP_LINE, &line)>0 ) { kputc('\n',&line); fwrite(line.s,1,line.l,stdout); } if ( (ret=hts_close(gz_in)) ) { fprintf(stderr,"hts_close(%s): non-zero status %d\n",gz_fname,ret); exit(ret); } free(line.s); free(gz_fname); } void iterator(const char *fname) { htsFile *fp = hts_open(fname, "r"); bcf_hdr_t *hdr = bcf_hdr_read(fp); hts_idx_t *idx; hts_itr_t *iter; bcf_index_build(fname, 0); idx = bcf_index_load(fname); iter = bcf_itr_queryi(idx, bcf_hdr_name2id(hdr, "20"), 1110600, 1110800); bcf_itr_destroy(iter); iter = bcf_itr_querys(idx, hdr, "20:1110600-1110800"); bcf_itr_destroy(iter); hts_idx_destroy(idx); bcf_hdr_destroy(hdr); int ret; if ( (ret=hts_close(fp)) ) { fprintf(stderr,"hts_close(%s): non-zero status %d\n",fname,ret); exit(ret); } } int main(int argc, char **argv) { char *fname = argc>1 ? argv[1] : "rmme.bcf"; write_bcf(fname); bcf_to_vcf(fname); iterator(fname); return 0; }